References
- Luo Q, Tong L. Fully-coupled nonlinear analysis of single lap adhesive joints. International Journal of Solids and Structures. 2007;44:2349–2370.
- Campilho RDSG, de Moura MFSF, Domingues JJMS. Modelling single and double-lap repairs on composite materials. Composites Science and Technology. 2005;65:1948–1958.
- Osnes H, Andersen A. Computational analysis of geometric nonlinear effects in adhesively bonded single lap joints. Composites Part B. 2003;34:417–427.
- Marques EAS, da Silva LFM. Joint strength optimization of adhesively bonded patches. Journal of Adhesion. 2008;84:915–934.
- Campilho RDSG, de Moura MFSF, Pinto AMG, Morais JJL, Domingues JJMS. Modelling the tensile fracture behaviour of CFRP scarf repairs. Composites Part B. 2009;40:149–157.
- Adams RD, Peppiatt NA. Stress analysis of adhesive-bonded lap joints. Journal of Strain Analysis. 1974;9:185–196.
- Baker AA. Repair of cracked or defective metallic components with advanced fiber composites: an overview of Australian work. Composite Structure. 1984;2:153–181.
- Baker AA, Jones R. Bonded patch repair of aircraft structures. Dordrecht: Martinus Nijhoff; 1988.
- Zhang H, Motipalli J, Lam YC, Baker A. Engineering of an elastic large muscular vessel wall with pulsatile stimulation in bioreactor. Composites Part A. 1998;29:1464–1472.
- da Silva LFM, and Öchsner A, editors.Modeling of adhesively bonded joints. Berlin: Springer; 2008.
- Semerdjiev S. Metal to metal adhesive bonding. London: Business Books; 1970.
- Sancaktar E, Kumar S. Selective use of rubber toughening to optimize lap-joint strength. Journal of Adhesion Science and Technology. 2000;14:1265–1296.
- da Silva LFM, Adams RD. Techniques to reduce the peel stresses in adhesive joints with composites. International Journal of Adhesion and Adhesives. 2007;27:227–235.
- Temiz S. Application of bi-adhesive in double-strap joints subjected to bending moment. Journal of Adhesion Science and Technology. 2006;20:1547–1560.
- Pires I, Quintino L, Durodola JF, Beevers A. Performance of bi-adhesive bonded aluminium lap joints. International Journal of Adhesion and Adhesives. 2003;23:215–223.
- Fitton MD, Broughton JG. Variable modulus adhesives: an approach to optimized joint performance. International Journal of Adhesion and Adhesives. 2005;25:329–336.
- da Silva LFM, Lopes MJCQ. Joint strength optimization by the mixed adhesive technique. International Journal of Adhesion and Adhesives. 2009;29:509–514.
- Ganesh VK, Choo TS. Modulus graded composite adherends for single-lap bonded joints. Journal of Composite Materials. 2002;36:1757–1767.
- Pinto AMG, Magalhães AG, Campilho RDSG, de Moura MFSF, Baptista APM. Single-lap joints of similar and dissimilar adherends bonded with an acrylic adhesive. Journal of Adhesion. 2009;85:351–376.
- Tsai MY, Morton J. The effect of a spew fillet on adhesive stress distributions in laminated composite single-lap joints. Composite Structures. 1995;32:123–131.
- Ashcroft IA, Abdel Wahab MM, Crocombe AD, Hughes DJ, Shaw SJ. The effect of environment on the fatigue of bonded composite joints. Part I: testing and fractography. Composite Part A. 2001;32:45–58.
- Chaves FJP, da Silva LFM, de Castro PMST. Adhesively bonded T-joints in polyvinyl chloride windows. Journal of Materials: Design and Applications. 2008;222:159–174.
- Adams RD, Harris JA. The influence of local geometry on the strength of adhesive joints. International Journal of Adhesion and Adhesives. 1987;7:69–80.
- Dorn L, Liu W. The stress state and failure properties of adhesive-bonded plastic/metal joints. International Journal of Adhesion and Adhesives. 1993;13:21–31.
- Lang TP, Mallick PK. Effect of spew geometry on stresses in single lap adhesive joints. International Journal of Adhesion and Adhesives. 1998;18:167–177.
- Vallée T, Correia JR, Keller T. Probabilistic strength prediction for double lap joints composed of pultruded GFRP profiles – Part I: experimental and numerical investigations. Composites Science and Technology. 2006;66:1903–1914.
- Vallée T, Tannert T, Murcia-Delso J, Quinn DJ. Influence of stress-reduction methods on the strength of adhesively bonded joints composed of orthotropic brittle adherends. International Journal of Adhesion and Adhesives. 2010;30:583–594.
- Cheuk PT, Tong L. Failure of adhesive bonded composite lap shear joints with embedded precrack. Composites Science and Technology. 2002;62:1079–1095.
- Rispler AR, Tong L, Steven GP, Wisnom MR. Shape optimization of adhesive fillets. International Journal of Adhesion and Adhesives. 2000;20:221–231.
- Adams RD, Atkins RW, Harris JA, Kinloch AJ. Stress analysis and failure properties of carbon- fibre-reinforced-plastic/steel double-lap joints. Journal of Adhesion. 1986;20:29–53.
- Hildebrand M. Non-linear analysis and optimization of adhesively bonded single lap joints between fibre-reinforced plastics and metals. International Journal of Adhesion and Adhesives. 1994;14:261–267.
- Sancaktar E, Lawry PO. Photoelastic study of the stress distribution in adhesively bonded joints with prebent adherends. Journal of Adhesion. 1980;11:233–241.
- Fessel G, Broughton JG, Fellows NA, Durodola JF, Hutchinson AR. Evaluation of different lap-shear joint geometries for automotive applications. International Journal of Adhesion and Adhesives. 2007;27:574–583.
- Çitil Ş, Temiz Ş, Altun H, Özel A. Determination of mechanical properties of double-strap adhesive joints with an embedded patch. Journal of Adhesion Science and Technology. 2011;25:2555–2567.
- Campilho RDSG, Banea MD, Pinto AMG, da Silva LFM, de Jesus AMP. Strength prediction of single and double-lap joints by standard and extended finite element modelling. International Journal of Adhesion and Adhesives. 2011;31:363–372.
- ASTM-E8M-04. Standard test methods for tension testing of metallic materials (Metric); 2004.
- da Silva LFM, da Silva RAM, Chousal JAG, Pinto AMG. Alternative methods to measure the adhesive shear displacement in the thick adherend shear test. Journal of Adhesion Science and Technology. 2008;22:15–29.
- Campilho RDSG, Pinto AMG, Banea MD, Silva RF, da Silva LFM. Strength improvement of adhesively-bonded joints using a reverse-bent geometry. Journal of Adhesion Science and Technology. 2011;25:2351–2368.
- Goyal VK, Johnson ER, Goyal VK. Predictive strength-fracture model for composite bonded joints. Composite Structures. 2008;82:434–446.
- Campilho RDSG, de Moura MFSF, Ramantani DA, Morais JJL, Domingues JJMS. Tensile behaviour of three-dimensional carbon-epoxy adhesively bonded single- and double-strap repairs. International Journal of Adhesion and Adhesives. 2009;29:678–686.
- Campilho RDSG, de Moura MFSF, Ramantani DA, Morais JJL, Domingues JJMS. Buckling behaviour of carbon-epoxy adhesively-bonded scarf repairs. Journal of Adhesion Science and Technology. 2009;23:1493–1513.
- Campilho RDSG, de Moura MFSF, Domingues JJMS. Using a cohesive damage model to predict the tensile behaviour of CFRP single-strap repairs. International Journal of Solids and Structures. 2008;45:1497–1512.
- ABAQUS® HTML Documentation. Vélizy-Villacoublay Cedex, France: Dassault Systemes; 2009.
- Jing J, Gao F, Johnson J, Liang FZ, Williams RL, Qu J. Simulation of dynamic fracture along solder-pad interfaces using a cohesive zone model. Engineering Failure Analysis. 2009;16:1579–1586.
- Reis P, Antunes F, Ferreira JAM. Influence of superposition length on mechanical resistance of single-lap adhesive joints. Composite Structures. 2005;67:125–133.